Novel devices for spatial light transformation. The aim of this project is to develop new optical instrumentation for spatially transforming light. This research expects to find solutions to problems that have thus far been out of reach by replacing what would traditionally be a human optical systems designer with computer algorithms. The expected outcomes include the development of three new devices as well as a set of design, fabrication and characterisation procedures that offer higher perfor ....Novel devices for spatial light transformation. The aim of this project is to develop new optical instrumentation for spatially transforming light. This research expects to find solutions to problems that have thus far been out of reach by replacing what would traditionally be a human optical systems designer with computer algorithms. The expected outcomes include the development of three new devices as well as a set of design, fabrication and characterisation procedures that offer higher performance, increased robustness and scalability. This should improve accessibility of this technology and provide benefits to a wide range of applications, including astronomical and biomedical imaging, telecommunications, as well as quantum and classical optical signal processing.Read moreRead less
Time reversed optics. The development of technology to precisely control how light travels through space and time yields the ability to deliver light through objects in ways which would not traditionally be possible and hence opens new applications. This project aims to develop new programmable optical systems for transforming the spatial and temporal properties of light, leveraging recent advances in optical beam shaping. Expected outcomes of this project include the construction and testing of ....Time reversed optics. The development of technology to precisely control how light travels through space and time yields the ability to deliver light through objects in ways which would not traditionally be possible and hence opens new applications. This project aims to develop new programmable optical systems for transforming the spatial and temporal properties of light, leveraging recent advances in optical beam shaping. Expected outcomes of this project include the construction and testing of two new types of optical systems. This should provide significant benefits in the areas of biomedical imaging, telecommunications, advanced manufacturing and both classical and quantum optical information processing.Read moreRead less
Investigating spatio-temporal instabilities in next-generation lasers. This project aims to decipher the transient spatio-temporal dynamics of lasers with an emphasis on investigating chaotic instabilities whose fundamental laws are unknown and whose effects impair laser performance in applications with a billion-dollar aggregate value. This project seeks to solve the problem by unravelling the evolving beam's structure on picosecond timescales using an optical device that dissects the beam in s ....Investigating spatio-temporal instabilities in next-generation lasers. This project aims to decipher the transient spatio-temporal dynamics of lasers with an emphasis on investigating chaotic instabilities whose fundamental laws are unknown and whose effects impair laser performance in applications with a billion-dollar aggregate value. This project seeks to solve the problem by unravelling the evolving beam's structure on picosecond timescales using an optical device that dissects the beam in space and time. The expected outcome is a suite of tools capable of guiding global efforts to develop next-generation lasers. The discoveries would propel Australia to become a characterisation nexus of the laser industry and usher in the era of faster telecommunication, enhanced sensors and high-precision manufacturing.Read moreRead less
Controllable quantum phases in two-dimensional metal-organic nanomaterials. This project aims to design novel two-dimensional metal-organic nanomaterials and to control electronic quantum phases therein. The project expects to generate new fundamental knowledge in advanced materials, solid-state physics and quantum nanoscience. It will rely on supramolecular chemistry to synthesise new atomically precise functional materials. Expected outcomes include the fabrication of new advanced nanomaterial ....Controllable quantum phases in two-dimensional metal-organic nanomaterials. This project aims to design novel two-dimensional metal-organic nanomaterials and to control electronic quantum phases therein. The project expects to generate new fundamental knowledge in advanced materials, solid-state physics and quantum nanoscience. It will rely on supramolecular chemistry to synthesise new atomically precise functional materials. Expected outcomes include the fabrication of new advanced nanomaterials, as well as the observation and control of new quantum phenomena therein. The project should provide significant benefits, such as advancing basic research in quantum nanomaterials, and aiding to lay the foundation for next-generation electronics and information technologies.Read moreRead less